US2314529A - Process of making roofing products - Google Patents

Description

March 23, 1943.

FIG.1

R. R. THURSTON 2,314,529

PROCESS OF MAKING ROOFING PRODUCTS Filed March 1} 1941 BITUMINATED FILLER.

205:2? 12.. Tuuaswou BMW INVENTOR BIIUMINATED FILLER,

ATTORNEYfi Patented Mar. 23, 1943 UNITED STATES PATENT OFFICE mocass or name ROOFING raonuc'rs Robert B. Thurston, Chappaqua. N. Y., assignor, 7 by mesne assignments, to The Texas Company,

New York, N. Y., a corporation of Delaware Application March 1, 1941, Serial No. 381,274

'1 Claims.

This invention relates to a process for making roofing products.

It is an object of the present invention to promineral filler and highly dispersed organic binder which may be produced in the manner described in Letters Patent Re. 20,119, patented September 22, 1936, by Albert Summer, by combining in a closed chamber a cloud of atomized organic binder such as bitumen and a cloud of highly dispersed pulverulent material which may be of mineral origin in such a manner that the cloud of bituminous material is deposited onto the cloud of pulverulent material so that the particles of pulverulent material are coated with a very thin film of the binding material.

Dry bituminated filler having a bitumencontent sufliciently high to produce a workable mastic is particularly suited for the manufacture of roofing products, because ofthe fact that it can be handled readily while the bitumen content is maintained in an inactive state, and then treated by means of heat, pressure or a solvent to'activate or liquefy the bitumen and permit the formation of a mastic sheet of any desired thickness'and size.

According to the present invention, bituminated filler is continuously supplied in regulated quantities to an endless conveyor and while on the conveyor the filler is subjected to the action of heated compression rolls which activate the bitumen and cause it and the mineral content to coalesce into a mastic sheet. This mastic sheet can be coated with asphalt if desired and also surfaced with colored granular material. Finally, the desired roofing products can be cut from the sheet to form theparticular type of relatively rigid roofing desired, whether it be individualor takes the form of a continuous membrane, such strip shingles or siding.

The apparatus shown schematically in the drawing .includes a continuous or endless conveyor or membrane III, which is adapted to travel upon and between a plurality of power driven rolls including supporting rolls I2, heated compression rolls ll, embedding rolls l6, cooling rolls l8 and cuttingrolls 20. A hopper 22 containing a supplyof bituminated filler is positioned above one end of the conveyor l and from the hopper the bituminated filler is supplied in regulated quantities to the upper surface of the conveyor to, which travels to the right, as viewed in'the drawing.

The conveyor and the bituminated filler thereon pass beneath a bailie scraper 24, which distributes the filler evenly over' the surface of the conveyor and removes any excess. As the conveyor moves on it passes between the compression rolls ll, which may be heated in any suitable .manner. The efl'ect of the heat and of the pressure thus applied to the filler on the conveyor II is to activate the bitumen content of the filler, which at this point coalesces with the mineral content and forms a mastic sheet 26. Heated asphalt may. if desired, next be applied asa coating 20, which are so designed that any desired formbituminated filler.

to the surface of the drastic sheet and, as shown I in the drawing. it may be suppl ed through a pipe ortube 28. The asphaltso applied as a coating is evenly distributed over the mastic sheet by means of a baflle scraper 30.

In many instances it is desirable to apply colored granules to the surface of the mastic sheet and for this purpose a hopper 32 is disposed above the conveyor and so arranged as to continuously supply regulated quantities of the granules to and across the surface of the sheet, whether it be coated or uncoated. More uniform distribution of the granules over the sheet is obtained by passing the sheet beneath another baiile scraper 34.

, After the coating and colored granules have been applied .to the mastic sheet, the sheet is passed between the embedding rolls l6 and the cooling rolls IS, the embedding rolls serving to embed the colored granules securely in the surface of the sheet, and the cooling rolls serving to cool the sheet to form a hard mastic. Finally, the sheet 26 is passed between the cutting rolls of roofing product can be continuously cut from the sheet.

The present invention contemplates alternate types of endless carriers.

the use of One type as strong wire screening, sheet metal or heavy fabric, which is used only as a conveyor of the This type is arranged in a conventional manner to travel around the various rolls except the cutting rolls 20, 20. By the time the ,sheet has passed between the embeddinsrolls l6, and the cooling rolls l8, l8 it to provide a unitary structure. When this latter form of carrier is used, the paper or felt is sup- .plied from a roll (not shown) in a well known manner.

In the modified form of apparatus illustrated in Fig. 2, an inclined compression plate 36 is positioned above the carrier, taking the place of the upper compression rolls I 4, H shown in Fig. 1. The plate SSis'used only when the carrier is of the type first mentioned above; that is, such as wire screening. The arrangement is such that the bituminated filler is progressively compressed between the plate and the carrier as the carrier moves over the lower heated compression rolls I, ll. When a metallic carrier is employed heat may be applied to it directly from any suitable source. This compression of the bituminated filler, together with the heat supplied directly or from the rolls ll, ll, activates the bitumen content and brings about coalescence of the material. From this point on the remainder of the apparatus and the steps of the process are similar to those described above in connection with the apparatus shown in Fig. 1.

From the foregoing it will be seen that with the apparatus illustrated and described herein it is possible to continuously treat dry bituminated filler in such a manner as to produce as a final product a hard mastic sheet either coated with asphalt or not, or surfaced with granular material or not, as circumstances may require, and the sheet so formed can then continuously cut into the desired form.

Obviously many modifications and variations of the invention as hereinbefore set forth may be made without departing from the spirit and scope thereof, and thereforeonly such limitations should be imposed as are indicated in the appended claims.

I claim:

l. A continuous process of manufacturing relatively ri id roofing units which comprises supplying dry bituminated filler consisting of pulverulent material coated with a thin film of bitumen to the surface of an endless conveyor, passing the conveyor between heated compression rolls to activate the bitumen content of the filler and form a mastic sheet, passing said sheet in .contactwith cooling rolls to harden the mastic and finallycutting said hardened mastic sheet to form the desired roofing units.

2. A continuous process of manufacturing relatively rigid roofing products which comprises supplying dry bituminated filler consisting of pulverulent material coated with a thin film of bitumen to the surface of an endless conveyor, subjecting the filler on the conveyor to heat and pressure to activate the bitumen content of the be readily and filler and form a mastic sheet, passing said sheet in contact wtih cooling rolls to harden the mastic, and finally cutting said hardened mastic into shingles or siding. 4

3. A continuous process of manufacturing relatively rigid roofing units which comprises supplying dry bituminated filler consisting of 'pulverulent material coated with a thin film of bitu men to the surface of an endless conveyor, subjecting the filler on the conveyor to heat and pressure to activate the bitumen content of the heat and pressure to activate 'the bitumen con-f tent of the filler and cause it and the mineral content to coalesce and form a mastic sheet, cooling said mastic sheet, and thereafter cutting the sheet to form desired roofing units.

5. A continuous process ofmanufacturing relatively rigid roofing units which comprises supplying dry bituminated filler consisting of pulverulent material coated with a thin film of bitumen to the surface of an endless conveyor, subjecting the filler on the conveyor to heat and pressureto activate the bitumen content of the filler and form a mastic sheet, applying colored granules to the surface of the asphalt coating, passing the mastic sheet between embedding rolls and cooling rolls to embed the granules in the coating and harden the mastic sheet, and finally passing the sheet between cutting rolls to form roofing units.

6. A process of manufacturing relatively rigid roofing units which comprises continuously supplying dry bituminated filler consisting of pulverulent material coated with a thin film oi bitumen to the surface of ,an endless conveyor, subjecting the filler on the conveyor to heat and pressure to activate the bitumen content of the filler and form a mastic sheet, applying asphalt uniformly to one face of the mastic sheet, applying granular material uniformly to the surface of said asphalt coating, cooling said sheet to harden the mastic, and cutting the sheet to form desired roofing units.

'7. A process of manufacturing roofing units which comprises continuously supplying dry bituminated filler to the surface of a continuously moving conveyor-of organic material, subjecting the filler and the conveyor to heat and pressure veyor to form roofing units backed with the ma- ;terial of which the -conveyor is made.

ROBERT R. THURSTQN.

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